Corsair 1000W Enthusiast RMx Series RM1000X V2 PSU
Corsair 1000W Enthusiast RMx Series RM1000X V2 PSU, Magnetic Levitation Fan, Fully Modular, 80+ Gold
The Corsair RM1000x V2 PSU is the perfect power supply for demanding gamers and enthusiasts. With a 1000W peak wattage and 80+ Gold certification, you get maximum performance with less waste heat and noise. Plus, the patented Magnetic Levitation fan keeps your components clean and cool.
CORSAIR RM1000x Series fully modular power supplies with EPS12V connectors are built with the highest quality components to deliver 80 PLUS Gold efficient power to your PC, with virtually silent operation.
- Fully Modular: Only connect the cables your system needs, making clean and tidy builds easier.
- 135mm Magnetic Levitation Fan: Utilizes a magnetic levitation bearing and custom engineered rotors for high performance, low noise, and superior reliability.
- EPS12V Connector: For wide compatibility with modern graphics cards and motherboards.
- 100% All Japanese 105°C Capacitors: Premium internal components ensure unwavering power delivery and long-term reliability
- Modern Standby Compatible: Extremely fast wake-from-sleep times and better low-load efficiency
- 80 PLUS Gold Certified: High efficiency operation for lower power consumption, less noise, and cooler temperatures.
- Zero RPM Fan Mode: At low and medium loads the cooling fan switches off entirely for near-silent operation
- Resonant LLC Topology with DC-to-DC Conversion: Provides clean, consistent power, reduces coil whine for quieter operation, and enables use of more energy efficient sleep states.
Specifications
Form Factor: ATX
Series: Corsair Enthusiast RMx
Modular: Fully Modular
Compatability: ATX12V v2.4 & EPS12V
Wattage: 1000 W
Connectors
8 x Molex
14 x SATA
6 x PCIe (6+2-Pin)
8+8+6-Pin CPU Power
Rail Design: Single Rail
AC Input: 100 - 240V
Fan Type: 135mm
Fan Bearing: Magnetic Levitation Bearing
80+ Certification: 80+ Gold
Efficiency: Upwards of 90% peak efficiency
MTBF: 100,000 hours
Protection
Over Voltage
Under Voltage
Short Circuit
Over Temperature
Over Power